asterisk/main/stun.c

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2023-05-25 18:45:57 +00:00
/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 1999 - 2008, Digium, Inc.
*
* Mark Spencer <markster@digium.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*!
* \file
*
* \brief STUN Support
*
* \author Mark Spencer <markster@digium.com>
*
* \note STUN is defined in RFC 3489.
*/
/*** MODULEINFO
<support_level>core</support_level>
***/
#include "asterisk.h"
#include "asterisk/logger.h"
#include "asterisk/logger_category.h"
#include "asterisk/_private.h"
#include "asterisk/stun.h"
#include "asterisk/cli.h"
#include "asterisk/utils.h"
#include "asterisk/channel.h"
/*!
* \brief STUN support code
*
* This code provides some support for doing STUN transactions.
* Eventually it should be moved elsewhere as other protocols
* than RTP can benefit from it - e.g. SIP.
* STUN is described in RFC3489 and it is based on the exchange
* of UDP packets between a client and one or more servers to
* determine the externally visible address (and port) of the client
* once it has gone through the NAT boxes that connect it to the
* outside.
* The simplest request packet is just the header defined in
* struct stun_header, and from the response we may just look at
* one attribute, STUN_MAPPED_ADDRESS, that we find in the response.
* By doing more transactions with different server addresses we
* may determine more about the behaviour of the NAT boxes, of
* course - the details are in the RFC.
*
* All STUN packets start with a simple header made of a type,
* length (excluding the header) and a 16-byte random transaction id.
* Following the header we may have zero or more attributes, each
* structured as a type, length and a value (whose format depends
* on the type, but often contains addresses).
* Of course all fields are in network format.
*/
typedef struct { unsigned int id[4]; } __attribute__((packed)) stun_trans_id;
struct stun_header {
unsigned short msgtype;
unsigned short msglen;
stun_trans_id id;
unsigned char ies[0];
} __attribute__((packed));
struct stun_attr {
unsigned short attr;
unsigned short len;
unsigned char value[0];
} __attribute__((packed));
/*
* The format normally used for addresses carried by STUN messages.
*/
struct stun_addr {
unsigned char unused;
unsigned char family;
unsigned short port;
unsigned int addr;
} __attribute__((packed));
/*! \brief STUN message types
* 'BIND' refers to transactions used to determine the externally
* visible addresses. 'SEC' refers to transactions used to establish
* a session key for subsequent requests.
* 'SEC' functionality is not supported here.
*/
#define STUN_BINDREQ 0x0001
#define STUN_BINDRESP 0x0101
#define STUN_BINDERR 0x0111
#define STUN_SECREQ 0x0002
#define STUN_SECRESP 0x0102
#define STUN_SECERR 0x0112
/*! \brief Basic attribute types in stun messages.
* Messages can also contain custom attributes (codes above 0x7fff)
*/
#define STUN_MAPPED_ADDRESS 0x0001
#define STUN_RESPONSE_ADDRESS 0x0002
#define STUN_CHANGE_REQUEST 0x0003
#define STUN_SOURCE_ADDRESS 0x0004
#define STUN_CHANGED_ADDRESS 0x0005
#define STUN_USERNAME 0x0006
#define STUN_PASSWORD 0x0007
#define STUN_MESSAGE_INTEGRITY 0x0008
#define STUN_ERROR_CODE 0x0009
#define STUN_UNKNOWN_ATTRIBUTES 0x000a
#define STUN_REFLECTED_FROM 0x000b
#define STUN_MAX_RETRIES 3
/*! \brief helper function to print message names */
static const char *stun_msg2str(int msg)
{
switch (msg) {
case STUN_BINDREQ:
return "Binding Request";
case STUN_BINDRESP:
return "Binding Response";
case STUN_BINDERR:
return "Binding Error Response";
case STUN_SECREQ:
return "Shared Secret Request";
case STUN_SECRESP:
return "Shared Secret Response";
case STUN_SECERR:
return "Shared Secret Error Response";
}
return "Non-RFC3489 Message";
}
/*! \brief helper function to print attribute names */
static const char *stun_attr2str(int msg)
{
switch (msg) {
case STUN_MAPPED_ADDRESS:
return "Mapped Address";
case STUN_RESPONSE_ADDRESS:
return "Response Address";
case STUN_CHANGE_REQUEST:
return "Change Request";
case STUN_SOURCE_ADDRESS:
return "Source Address";
case STUN_CHANGED_ADDRESS:
return "Changed Address";
case STUN_USERNAME:
return "Username";
case STUN_PASSWORD:
return "Password";
case STUN_MESSAGE_INTEGRITY:
return "Message Integrity";
case STUN_ERROR_CODE:
return "Error Code";
case STUN_UNKNOWN_ATTRIBUTES:
return "Unknown Attributes";
case STUN_REFLECTED_FROM:
return "Reflected From";
}
return "Non-RFC3489 Attribute";
}
/*! \brief here we store credentials extracted from a message */
struct stun_state {
const char *username;
const char *password;
};
static int stun_process_attr(struct stun_state *state, struct stun_attr *attr)
{
if (ast_debug_stun_packet_is_allowed) {
ast_verbose("Found STUN Attribute %s (%04x), length %d\n",
stun_attr2str(ntohs(attr->attr)), (unsigned)ntohs(attr->attr), ntohs(attr->len));
}
switch (ntohs(attr->attr)) {
case STUN_USERNAME:
state->username = (const char *) (attr->value);
break;
case STUN_PASSWORD:
state->password = (const char *) (attr->value);
break;
default:
if (ast_debug_stun_packet_is_allowed) {
ast_verbose("Ignoring STUN attribute %s (%04x), length %d\n",
stun_attr2str(ntohs(attr->attr)), (unsigned)ntohs(attr->attr), ntohs(attr->len));
}
}
return 0;
}
/*! \brief append a string to an STUN message */
static void append_attr_string(struct stun_attr **attr, int attrval, const char *s, int *len, int *left)
{
int str_length = strlen(s);
int attr_length = str_length + ((~(str_length - 1)) & 0x3);
int size = sizeof(**attr) + attr_length;
if (*left > size) {
(*attr)->attr = htons(attrval);
(*attr)->len = htons(attr_length);
memcpy((*attr)->value, s, str_length);
memset((*attr)->value + str_length, 0, attr_length - str_length);
(*attr) = (struct stun_attr *)((*attr)->value + attr_length);
*len += size;
*left -= size;
}
}
/*! \brief append an address to an STUN message */
static void append_attr_address(struct stun_attr **attr, int attrval, struct sockaddr_in *sin, int *len, int *left)
{
int size = sizeof(**attr) + 8;
struct stun_addr *addr;
if (*left > size) {
(*attr)->attr = htons(attrval);
(*attr)->len = htons(8);
addr = (struct stun_addr *)((*attr)->value);
addr->unused = 0;
addr->family = 0x01;
addr->port = sin->sin_port;
addr->addr = sin->sin_addr.s_addr;
(*attr) = (struct stun_attr *)((*attr)->value + 8);
*len += size;
*left -= size;
}
}
static void handle_stun_timeout(int retry, struct sockaddr_in *dst)
{
char *stun_destination = "";
if (dst) {
ast_asprintf(&stun_destination, "to '%s' ", ast_inet_ntoa(dst->sin_addr));
}
if (retry < STUN_MAX_RETRIES) {
ast_log(LOG_NOTICE,
"Attempt %d to send STUN request %stimed out.\n",
retry,
stun_destination);
} else {
ast_log(LOG_WARNING,
"Attempt %d to send STUN request %stimed out. "
"Check that the server address is correct and reachable.\n",
retry,
stun_destination);
}
if (dst) {
ast_free(stun_destination);
}
}
/*! \brief wrapper to send an STUN message */
static int stun_send(int s, struct sockaddr_in *dst, struct stun_header *resp)
{
return sendto(s, resp, ntohs(resp->msglen) + sizeof(*resp), 0,
(struct sockaddr *)dst, sizeof(*dst));
}
/*!
* \internal
* \brief Compare the STUN transaction IDs.
*
* \param left Transaction ID.
* \param right Transaction ID.
*
* \retval 0 if match.
* \retval non-zero if not match.
*/
static int stun_id_cmp(stun_trans_id *left, stun_trans_id *right)
{
return memcmp(left, right, sizeof(*left));
}
/*! \brief helper function to generate a random request id */
static void stun_req_id(struct stun_header *req)
{
int x;
for (x = 0; x < 4; x++)
req->id.id[x] = ast_random();
}
int ast_stun_handle_packet(int s, struct sockaddr_in *src, unsigned char *data, size_t len, stun_cb_f *stun_cb, void *arg)
{
struct stun_header *hdr = (struct stun_header *)data;
struct stun_attr *attr;
struct stun_state st;
int ret = AST_STUN_IGNORE;
int x;
/* On entry, 'len' is the length of the udp payload. After the
* initial checks it becomes the size of unprocessed options,
* while 'data' is advanced accordingly.
*/
if (len < sizeof(struct stun_header)) {
ast_debug_stun(1, "Runt STUN packet (only %d, wanting at least %d)\n", (int) len, (int) sizeof(struct stun_header));
return -1;
}
len -= sizeof(struct stun_header);
data += sizeof(struct stun_header);
x = ntohs(hdr->msglen); /* len as advertised in the message */
if (ast_debug_stun_packet_is_allowed)
ast_verbose("STUN Packet, msg %s (%04x), length: %d\n", stun_msg2str(ntohs(hdr->msgtype)), (unsigned)ntohs(hdr->msgtype), x);
if (x > len) {
ast_debug_stun(1, "Scrambled STUN packet length (got %d, expecting %d)\n", x, (int)len);
} else
len = x;
memset(&st, 0, sizeof(st));
while (len) {
if (len < sizeof(struct stun_attr)) {
ast_debug_stun(1, "Runt Attribute (got %d, expecting %d)\n", (int)len, (int) sizeof(struct stun_attr));
break;
}
attr = (struct stun_attr *)data;
/* compute total attribute length */
x = ntohs(attr->len) + sizeof(struct stun_attr);
if (x > len) {
ast_debug_stun(1, "Inconsistent Attribute (length %d exceeds remaining msg len %d)\n", x, (int)len);
break;
}
if (stun_cb)
stun_cb(attr, arg);
if (stun_process_attr(&st, attr)) {
ast_debug_stun(1, "Failed to handle attribute %s (%04x)\n", stun_attr2str(ntohs(attr->attr)), (unsigned)ntohs(attr->attr));
break;
}
/* Clear attribute id: in case previous entry was a string,
* this will act as the terminator for the string.
*/
attr->attr = 0;
data += x;
len -= x;
}
/* Null terminate any string.
* XXX NOTE, we write past the size of the buffer passed by the
* caller, so this is potentially dangerous. The only thing that
* saves us is that usually we read the incoming message in a
* much larger buffer in the struct ast_rtp
*/
*data = '\0';
/* Now prepare to generate a reply, which at the moment is done
* only for properly formed (len == 0) STUN_BINDREQ messages.
*/
if (len == 0) {
unsigned char respdata[1024];
struct stun_header *resp = (struct stun_header *)respdata;
int resplen = 0; /* len excluding header */
int respleft = sizeof(respdata) - sizeof(struct stun_header);
char combined[33];
resp->id = hdr->id;
resp->msgtype = 0;
resp->msglen = 0;
attr = (struct stun_attr *)resp->ies;
switch (ntohs(hdr->msgtype)) {
case STUN_BINDREQ:
if (ast_debug_stun_packet_is_allowed)
ast_verbose("STUN Bind Request, username: %s\n",
st.username ? st.username : "<none>");
if (st.username) {
append_attr_string(&attr, STUN_USERNAME, st.username, &resplen, &respleft);
/*
* For Google Voice, the stun username is made up of the local
* and remote usernames, each being fixed at 16 bytes. We have
* to swap the two at this point.
*/
snprintf(combined, 17, "%16s", st.username + 16);
snprintf(combined + 16, 17, "%16s", st.username);
} else {
combined[0] = '\0';
}
append_attr_address(&attr, STUN_MAPPED_ADDRESS, src, &resplen, &respleft);
resp->msglen = htons(resplen);
resp->msgtype = htons(STUN_BINDRESP);
stun_send(s, src, resp);
ast_stun_request(s, src, combined, NULL);
ret = AST_STUN_ACCEPT;
break;
default:
if (ast_debug_stun_packet_is_allowed)
ast_verbose("Dunno what to do with STUN message %04x (%s)\n", (unsigned)ntohs(hdr->msgtype), stun_msg2str(ntohs(hdr->msgtype)));
}
}
return ret;
}
/*! \brief Extract the STUN_MAPPED_ADDRESS from the stun response.
* This is used as a callback for stun_handle_response
* when called from ast_stun_request.
*/
static int stun_get_mapped(struct stun_attr *attr, void *arg)
{
struct stun_addr *addr = (struct stun_addr *)(attr + 1);
struct sockaddr_in *sa = (struct sockaddr_in *)arg;
if (ntohs(attr->attr) != STUN_MAPPED_ADDRESS || ntohs(attr->len) != 8)
return 1; /* not us. */
sa->sin_port = addr->port;
sa->sin_addr.s_addr = addr->addr;
return 0;
}
int ast_stun_request(int s, struct sockaddr_in *dst,
const char *username, struct sockaddr_in *answer)
{
struct stun_header *req;
struct stun_header *rsp;
unsigned char req_buf[1024];
unsigned char rsp_buf[1024];
int reqlen, reqleft;
struct stun_attr *attr;
int res = -1;
int retry;
if (answer) {
/* Always clear answer in case the request fails. */
memset(answer, 0, sizeof(struct sockaddr_in));
}
/* Create STUN bind request */
req = (struct stun_header *) req_buf;
stun_req_id(req);
reqlen = 0;
reqleft = sizeof(req_buf) - sizeof(struct stun_header);
attr = (struct stun_attr *) req->ies;
if (username) {
append_attr_string(&attr, STUN_USERNAME, username, &reqlen, &reqleft);
}
req->msglen = htons(reqlen);
req->msgtype = htons(STUN_BINDREQ);
for (retry = 0; retry++ < STUN_MAX_RETRIES;) { /* XXX make retries configurable */
/* send request, possibly wait for reply */
struct sockaddr_in src;
socklen_t srclen;
struct timeval start;
/* Send STUN message. */
res = stun_send(s, dst, req);
if (res < 0) {
ast_debug_stun(1, "stun_send try %d failed: %s\n", retry, strerror(errno));
break;
}
if (!answer) {
/* Successful send since we don't care about any response. */
res = 0;
break;
}
start = ast_tvnow();
try_again:
/* Wait for response. */
{
struct pollfd pfds = { .fd = s, .events = POLLIN };
int ms;
ms = ast_remaining_ms(start, 3000);
if (ms <= 0) {
/* No response, timeout */
handle_stun_timeout(retry, dst);
res = 1;
continue;
}
res = ast_poll(&pfds, 1, ms);
if (res < 0) {
/* Error */
continue;
}
if (!res) {
/* No response, timeout */
handle_stun_timeout(retry, dst);
res = 1;
continue;
}
}
/* Read STUN response. */
memset(&src, 0, sizeof(src));
srclen = sizeof(src);
/* XXX pass sizeof(rsp_buf) - 1 in the size, because stun_handle_packet might
* write past the end of the buffer.
*/
res = recvfrom(s, rsp_buf, sizeof(rsp_buf) - 1,
0, (struct sockaddr *) &src, &srclen);
if (res < 0) {
ast_debug_stun(1, "recvfrom try %d failed: %s\n", retry, strerror(errno));
break;
}
/* Process the STUN response. */
rsp = (struct stun_header *) rsp_buf;
if (ast_stun_handle_packet(s, &src, rsp_buf, res, stun_get_mapped, answer)
|| (rsp->msgtype != htons(STUN_BINDRESP)
&& rsp->msgtype != htons(STUN_BINDERR))
|| stun_id_cmp(&req->id, &rsp->id)) {
/* Bad STUN packet, not right type, or transaction ID did not match. */
memset(answer, 0, sizeof(struct sockaddr_in));
/* Was not a resonse to our request. */
goto try_again;
}
/* Success. answer contains the external address if available. */
res = 0;
break;
}
return res;
}
static char *handle_cli_stun_set_debug(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
switch (cmd) {
case CLI_INIT:
e->command = "stun set debug {on|off}";
e->usage =
"Usage: stun set debug {on|off}\n"
" Enable/Disable STUN (Simple Traversal of UDP through NATs)\n"
" debugging\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
if (a->argc != e->args)
return CLI_SHOWUSAGE;
if (!strncasecmp(a->argv[e->args-1], "on", 2))
ast_debug_category_set_sublevel(AST_LOG_CATEGORY_STUN_PACKET, AST_LOG_CATEGORY_ENABLED);
else if (!strncasecmp(a->argv[e->args-1], "off", 3))
ast_debug_category_set_sublevel(AST_LOG_CATEGORY_STUN_PACKET, AST_LOG_CATEGORY_DISABLED);
else
return CLI_SHOWUSAGE;
ast_cli(a->fd, "STUN Debugging %s\n", ast_debug_stun_packet_is_allowed ? "Enabled" : "Disabled");
return CLI_SUCCESS;
}
static struct ast_cli_entry cli_stun[] = {
AST_CLI_DEFINE(handle_cli_stun_set_debug, "Enable/Disable STUN debugging"),
};
static uintmax_t debug_category_stun_id;
uintmax_t ast_debug_category_stun_id(void)
{
return debug_category_stun_id;
}
static uintmax_t debug_category_stun_packet_id;
uintmax_t ast_debug_category_stun_packet_id(void)
{
return debug_category_stun_packet_id;
}
static void stun_shutdown(void)
{
ast_cli_unregister_multiple(cli_stun, sizeof(cli_stun) / sizeof(struct ast_cli_entry));
ast_debug_category_unregister(AST_LOG_CATEGORY_STUN_PACKET);
ast_debug_category_unregister(AST_LOG_CATEGORY_STUN);
}
/*! \brief Initialize the STUN system in Asterisk */
void ast_stun_init(void)
{
ast_cli_register_multiple(cli_stun, sizeof(cli_stun) / sizeof(struct ast_cli_entry));
ast_register_cleanup(stun_shutdown);
debug_category_stun_id = ast_debug_category_register(AST_LOG_CATEGORY_STUN);
debug_category_stun_packet_id = ast_debug_category_register(AST_LOG_CATEGORY_STUN_PACKET);
}